Reversible inactivation by NADH and ADP on Chlorella fusca nitrate reductase

The active form of $\text{Chlorella fusca}$ nitrate reductase can be reversibly converted into its inactive form by reduction with NADH in the presence of ADP. Under the experimental conditions used, no inactivation occurs when nitrate is simultaneously present or when the nucleotides act isolately, the inactivating effect being maximal at a concentration of ADP (0.3 mM) equimolecular with that of NADH. The inactive enzyme thus attained can be completely reactivated by reoxidation with ferricyanide. The redox state of the pyridine nucleotide and the phosphorylation degree of the adenine nucleotide are critical for the inactivation process to ensue, since neither NAD⁺ nor AMP or ATP do exert any effect. ADP is also a powerful, although rather unspecific, protector against thermal inactivation of the NADH-diaphorase moiety of the NADH-nitrate reductase complex.